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LM358TPX Texas Instruments DUAL OP-AMP, 9000uV OFFSET-MAX, 1MHz BAND WIDTH, PBGA8, LEAD FREE, MICRO, BUMP, SMD-8 visit Texas Instruments
LM358AJG Texas Instruments DUAL OP-AMP, 5000uV OFFSET-MAX, 0.6MHz BAND WIDTH, CDIP8, 0.300 INCH, HERMETIC SEALED, CERAMIC, DIP-8 visit Texas Instruments
LM358AM Texas Instruments Low Power Dual Operational Amplifier 8-SOIC 0 to 70 visit Texas Instruments
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RMS TO DC converter using LM358

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RMS TO DC converter using LM358

Abstract: charger on LM358 as an offline ac/dc adapter. Figure 1 shows a typical SEPIC topology for a buck-boost converter with , 2008 Submit Documentation Feedback USB Charger Solution Using the TPS40210 SEPIC Converter 1 , . Using a coupled inductor requires less space on the printed circuit board (PCB) and tends to be lower , December 2008 Submit Documentation Feedback USB Charger Solution Using the TPS40210 SEPIC Converter , ) The SEPIC capacitor must be rated for a large RMS current relative to the output power. This property
Texas Instruments
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SLVA313 RMS TO DC converter using LM358 charger on LM358 isolated sepic converter sepic dc to dc converters schematic diagram with LM358 lm358 800 16-VDC

lm358 li ion charger circuit

Abstract: RMS TO DC converter using LM358 .190 1997 4-165 4 Application Note 15 Micrel 6V­24V to 3.3V/0.5A Buck Converter Through Hole 8V­24V to 5V/0.5A Buck Converter Through Hole L1 3 6V to 24V SHDN SW , /0.5A Buck Converter Note 1 Through Hole 8V­40V to 5V/0.5A Buck Converter Note 1 Through Hole , 15 Micrel 16V­40V to 12V/0.5A Buck Converter Note 1 Through Hole 3 16V to 40V 5 C1 , 0.4 0.6 0.8 LOAD CURRENT (A) 4 1.0 8V­24V to 5V/1A Buck Converter Through Hole L1 SW
Micrel Semiconductor
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lm358 li ion charger circuit lm358 sum Lithium Ion Cells 12V DC DC 3A charger 24V DC to 5V 1A DC flyback converter ir sensing circuit using LM358 1N5819

RMS TO DC converter using LM358

Abstract: DO3316P-102HC AND8079/D A Low Cost DDR Memory Power Supply Using the NCP1571 Synchronous Buck Converter and a LM358 Based Linear Voltage Regulator http://onsemi.com APPLICATION NOTE Prepared by: Jim , /NCP1571 low voltage synchronous buck converter. The reference design created to evaluate the system uses , ) that also tracks Vdd/2. A low voltage synchronous buck converter is used to create an 8.0 A output at , parallel standby power supply in addition to the main power supplied by the buck converter. Standby
ON Semiconductor
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DO3316P-102HC rubycon electrolytic capacitor ripple current lm358 frequency duty cycle MC33375 MTB1306 NCP1570 NCP1570/NCP1571

RMS TO DC converter using LM358

Abstract: LM358 output drive circuits AND8079/D A Low Cost DDR Memory Power Supply Using the NCP1571 Synchronous Buck Converter and a LM358 Based Linear Voltage Regulator http://onsemi.com APPLICATION NOTE Prepared by: Jim , /NCP1571 low voltage synchronous buck converter. The reference design created to evaluate the system uses , ) that also tracks Vdd/2. A low voltage synchronous buck converter is used to create an 8.0 A output at , parallel standby power supply in addition to the main power supplied by the buck converter. Standby
ON Semiconductor
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LM358 output drive circuits lm358 CHARGE CONTROLLER NTD4302

diodo zener c12

Abstract: L497X RMS current through the input capacitor, referred to the output current (Iout), for various phase , coil of 0.1 Iout. For equal to a half period (180 degrees of phase delay) the RMS current is , /50V ROE with an ESR = 85m. Using the multiphase application with a phase delay, , equal to half , possible to maintain high efficiency values using low cost and size capacitor. Figure 12. P% P , flowing through the input capacitors is maximum and is given by Io/2 . So the RMS current to be sustained
STMicroelectronics
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AN1126 L4973 L4973D3 AN938 diodo zener c12 L497X diodo smd ROE capacitor diodo c12 ST lm358 dt smd POWERDIP18 SO20L L4973D5

motorola 1N4148

Abstract: JF SS34 . 190 1997 4-165 Application Note 15 Micrel 6V-24V to 3.3V/0.5A Buck Converter Through Hole L1 SHDN 6V to 24V C1 SW 8V-24V to 5V/0.5A Buck Converter Through Hole & MIC4574-3.3BN V , 6V-40V to 3.3V/0.5A Buck Converter Note 1 Through Hole L1 3.3V/0.5A 8V-40V to 5V/0.5A Buck Converter , Application Note 15 Micrei 16V-40V to 12V/0.5A Buck Converter Through Hole 1 6V-40V to 3.3V/1A , 6V-24V to 3.3V/1A Buck Converter Through-Hole 8V-24V to 5V/1A Buck Converter Through Hole SHDN BV to
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OCR Scan
motorola 1N4148 JF SS34 schematic apple 4 battery 1n414b diode uses sb360 equivalent 16MV220GX

IRF420A

Abstract: current to voltage converter using LM358 using a second DC/DC converter to regulate the current. This is entirely unnecessary. A single stage , component due to the load. An estimate may be calculated using Equation 10. I RMS ( COUT ) 3 (EQ , to deliver power from the AC mains with near unity power factor while using off-the-shelf constant , must reduce to zero during a portion of the switching cycle, i.e., the converter must operate in , 1000mA of DC current at 3V to 4V to provide up to 175 lumens of light output1. A typical high pressure
Intersil
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AN1387 ECQU2A104ML IRF420A ISL6745 current to voltage converter using LM358 Osram Ballast schematics schematic 150W lamp ballast schematic hid lamp ballast ISL6745 Application Notes 250VAC MJD50 ECQU2A473ML 225/I

DH0165

Abstract: dh0165 8 pin ic protection circuitry. Compared to a discrete MOSFET and controller or RCC (Ringing Choke Converter , pin is designed to directly drive the converter transformer and is capable of switching a minimum of , inside the IC in order to get the effect of eliminating Rstart, which caused a loss in the systems using , charger. Each application has secondary circuits to ensure constant voltage and constant 1. Using the , (Typ) TO-92 Type, LM431 KA358 (LM358) KA358 (LM358) 1 Dual operational amplifier 8
Fairchild Semiconductor
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AN4111 DH0165 dh0165 8 pin ic ic lm358 inverter block diagram opto coupler 817 comparator circuit using op-amp lm 358 Ringing Choke Converter

block schematic of LM358

Abstract: IRL2203 SC1167 Programmable Synchronous DC/DC Converter, Dual LDO Controller POWER MANAGEMENT , two low-dropout linear regulators providing most of the circuitry necessary to implement three DC/DC , application areas. The integrated D/A converter provides programmability of output voltage from 2.0V to 3.5V in 100mV increments and 1.30V to 2.05V in 50mV increments with no external components , features an integrated 5 bit D/A converter, latched drive output for enhanced noise immunity, pulse by
Semtech
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IRLR024N block schematic of LM358 IRL2203 Si4410 IRLR3103N SC1167CS

LM358

Abstract: IRL2203 SC1166 Programmable Synchronous DC/DC Converter, Dual LDO Controller POWER MANAGEMENT , two low-dropout linear regulators providing most of the circuitry necessary to implement three DC/ DC converters for powering advanced microprocessors such as Pentium® II . The SC1166 switching , application areas. The integrated D/A converter provides programmability of output voltage from 2.0V to 3.5V , , typical FET losses would be: Using 1.5X Room temp RDS(ON) to allow for temperature rise. FET type
Semtech
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SC1166CSW IRLR3103 capacitor 2100 uf 25v with esr 16AWG T50-52D

dh0165

Abstract: 817A OPTO-coupler transformer winding. Drain (#8): This pin is designed to directly drive the converter transformer and is , application has secondary circuits to ensure constant voltage and constant 1. Using the Fairchild power , (Typ) TO-92 Type, LM431 KA358 (LM358) KA358 (LM358) 1 Dual operational amplifier 8 , topology by using flyback converter. In consideration of the size of the set and EMI, two DC-link , using Li-ion batteries, which are light and have high energy density. The chargers for these batteries
Fairchild Semiconductor
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FSDH0165 817A OPTO-coupler opto 817 transistor ka431 KA4312 mb6s diode transistor ka431az

DH0165

Abstract: ee1614 heat sink & pin configuration Drain (#8): This pin is designed to directly drive the converter , needs to be small, C2, C3 and L1 form a -filter rather than using a conventional line filter. AC line , and efficiency. Much of this equipment is currently using Li-ion batteries, which are light and have high energy density. The chargers for these batteries are made using various topologies. One of the , their research to meet the demand. Semiconductor companies, who develop switching devices for SMPS
Fairchild Semiconductor
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ee1614 817a opto coupler EE-1614 817A EE1614 H transistor ka431 L

LM358

Abstract: 1186C Programmable Synchronous DC/DC Converter, Dual LDO Controller POWER MANAGEMENT Description The , most of the circuitry necessary to implement three DC/DC converters for powering advanced microprocessors such as Pentium® II & III. The SC1186 switching section features an integrated 5 bit D/A converter , compromise between size, efficiency and cost in the intended application areas. The integrated D/A converter provides programmability of output voltage from 2.0V to 3.5V in 100mV increments and 1.30V to 2.05V in 50mV
Semtech
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1186C SC1186CS

IRLR024N

Abstract: LM358 SC1185 & SC1185A Programmable Synchronous DC/DC Converter, Dual LDO Controller POWER , low-dropout linear regulators providing most of the circuitry necessary to implement three DC/ DC converters , at 14.2A requirement, typical FET losses would be: Using 1.5X Room temp RDS(ON) to allow for , converter, pulse by pulse current limiting, integrated power good signaling, and logic compatible shutdown , between size, efficiency and cost in the intended application areas. The integrated D/A converter provides
Semtech
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SC1185ACSW SC1185CSW high side mosfet drive MS-013 IPC-SM-782A

pwm lm358 mosfet

Abstract: IRLR024N SC1185 & SC1185A Programmable Synchronous DC/DC Converter, Dual LDO Controller POWER , application areas. The integrated D/A converter provides programmability of output voltage from 2.0V to 3.5V , would be: Using 1.5X Room temp RDS(ON) to allow for temperature rise. FET type RDS(on) (m) PD (W , controller with two low-dropout linear regulators providing most of the circuitry necessary to implement three DC/ DC converters for powering advanced microprocessors such as Pentium® II . The SC1185
Semtech
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pwm lm358 mosfet SC1185CS

lm358 current monitor

Abstract: IRL2203 SC1186 Programmable Synchronous DC/DC Converter, Dual LDO Controller POWER MANAGEMENT , two low-dropout linear regulators providing most of the circuitry necessary to implement three DC/DC , application areas. The integrated D/A converter provides programmability of output voltage from 2.0V to 3.5V in 100mV increments and 1.30V to 2.05V in 50mV increments with no external components , features an integrated 5 bit D/A converter, latched drive output for enhanced noise immunity, pulse by
Semtech
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lm358 current monitor SC1186CSW H367 SO-24

lm358 current monitor

Abstract: IRL2203 SC1186 Programmable Synchronous DC/DC Converter, Dual LDO Controller POWER MANAGEMENT , linear regulators providing most of the circuitry necessary to implement three DC/DC converters for , ; 2.8V out at 14.2A requirement, typical FET losses would be: Using 1.5X Room temp RDS(ON) to allow for , % Reference available The SC1186 switching section features an integrated 5 bit D/A converter, latched , compromise between size, efficiency and cost in the intended application areas. The integrated D/A converter
Semtech
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SC1186

Abstract: sanyo 1500uF 50V capacitor SC1186 Programmable Synchronous DC/DC Converter, Dual LDO Controller POWER MANAGEMENT , linear regulators providing most of the circuitry necessary to implement three DC/DC converters for , % Reference available The SC1186 switching section features an integrated 5 bit D/A converter, latched , compromise between size, efficiency and cost in the intended application areas. The integrated D/A converter provides programmability of output voltage from 2.0V to 3.5V in 100mV increments and 1.30V to 2.05V in
Semtech
Original
sanyo 1500uF 50V capacitor lm358 application

LM358

Abstract: 4410 SO-8 Programmable Synchronous DC/DC Converter, Dual LDO Controller POWER MANAGEMENT Description The , most of the circuitry necessary to implement three DC/ DC converters for powering advanced microprocessors such as Pentium® II . The SC1185 switching section features an integrated 5 bit D/A converter , size, efficiency and cost in the intended application areas. The integrated D/A converter provides programmability of output voltage from 2.0V to 3.5V in 100mV increments and 1.30V to 2.05V in 50mV increments with
Semtech
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4410 SO-8

HR R 221k 2kv

Abstract: lm358 CHARGE CONTROLLER or charger insertion and removal is managed using external provisions to briefly override the ICS1738 , the 5V to the ICS1738 is recommended. The simplest, lowest cost automatic approaches involve using a , on the ICS1738 using the minimum current method for fast charge termination since the 3 to 6mV/cell , packs. The ICS1738 uses a pulsed charging technique with an option to interleave brief discharge pulses , pauses in the charging process alone provide some improvement in battery performance compared to
Galaxy Power
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HR R 221k 2kv diode u2 7d lm358 jrc hr r 102k 2kv HR R 681K 2KV AN1431
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